Abstract:
Recently, The study builds on Simultaneous Light wave Information and Power Transfer (SLIPT) has become a
hot topic among the research community. The importance of the
SLIPT is to harvest energy using light sources while decoding
the information. In this approach, we present the mathematical
framework for the Power Splitting (PS) based SLIPT system
and study the performance of the PS-SLIPT and time switching
(TS)-SLIPT architectures. Moreover, we quantitatively studied
the harvested energy with different Field of View (FoV) angles
of the Light Emitting Diode (LED) and the Photodiode (PD).
In addition, we considered the amount of harvested energy for
different Direct Current (DC) values. Overall, this paper con cludes that the FoV and DC bias signals are directly affected by
SLIPT systems. Using numerical simulations, we demonstrated
the performance of the both architectures to enhance the QoS
of data rate, amount of harvested energy and trustworthiness of
the information.
